JPH0451438Y2 - - Google Patents

Description

[Detailed description of the invention] [Purpose of the invention] Industrial application field The present invention relates to a far-infrared heater that uses far-infrared rays emitted from ceramics to increase the temperature of hot air.

Conventional technology Conventionally, far-infrared heaters that utilize far-infrared effects are extremely safe, and unlike kerosene stoves, there is no risk of odor or poisoning due to carbon monoxide, and there is no risk of igniting the fuel and causing a fire. Since it is not dangerous, it is ideal for hospital rooms, elderly rooms, children's rooms, etc.
Since far-infrared rays cannot be emitted efficiently, the desired heating temperature cannot be maintained, resulting in a high electricity bill.

Problems that the invention aims to solve This invention efficiently radiates far-infrared rays and increases the temperature of hot air, thereby heating the room without waste, reducing the burden on electricity bills, and providing safe and clean heating. The purpose of this invention is to provide a far-infrared heater.

[Structure of the idea]

Means for Solving the Problems In view of the above, the present invention is based on an insulating plate having a large number of perforated holes, mainly composed of SiO ₂ , TiO ₂ , and AL ₂ O ₃ .
A far-infrared radiation plate made by curing a ceramic coating agent made of silane/titanate polymer and inorganic pigment by drying at room temperature or heating at low temperature to form a film is fixed to the frame, and generates heat in the perforated holes of the far-infrared radiation plate. A heater is formed by penetrating the body in a zigzag pattern, and the heater is placed in front of a fan provided in the case and corresponds to an air outlet provided in the front part of the case; Forming metal material into a honeycomb shape,
The above-mentioned far-infrared radiation screen is made by curing a ceramic coating agent containing SiO ₂ , TiO ₂ , AL ₂ O ₃ as main components, silane titanate polymer and inorganic pigment to form a film by drying at room temperature or heating at low temperature. The present invention attempts to solve the above-mentioned drawbacks by providing a far-infrared heater interposed between the front of the heater and the air outlet.

Function The present invention causes the heating element in the heater to generate heat, and due to this heat generation, far infrared rays are radiated from the far infrared radiation plate.

The far-infrared rays emitted from the far-infrared radiation plate are emitted from the air outlet, and the fan is operated to forcibly blow out the heat generated within the main body as hot air.

Furthermore, in a device in which a far-infrared radiation screen is interposed between the front of the heater and the air outlet, far-infrared rays are emitted from the far-infrared radiating plate due to the heat generated by the heating element, and the radiant heat due to this far-infrared rays is The heat generated by the heating element heats the far-infrared radiation screen and emits far-infrared rays.

At this time, since the honeycomb-shaped far-infrared screen has a large surface area, it is intended to increase the amount of far-infrared radiation, and the radiant heat obtained by the far-infrared radiation in combination with the far-infrared radiation of the far-infrared radiation plate. is amplified.

The far-infrared rays emitted from the far-infrared radiation plate and the far-infrared screen are emitted from the air outlet, and the fan is operated to forcibly blow out the heat generated within the main body as warm air.

Embodiment An embodiment of the present invention will be described below based on the drawings. 1 is a main body of a far-infrared heater;
A box-shaped case 8 is constructed by an upper cover body 3 having an air intake port 2 on the upper surface, a lower cover body 5 having a leg seat 4 attached to the lower part, and a front cover body 7 having air outlets 6, 6a... is made up of.

Further, a fan is disposed at the back of the lower cover body 5 so as to correspond to the air intake port 2 of the upper cover body 3, and a heater 10 is installed in front of the fan 9 to the air outlet ports 6, 6a, . . . of the front cover body 7. It is set up accordingly.

The fan 9 is formed into an impeller shape and includes a motor (not shown) connected to a power supply timer 11.
It is installed on the

The heater 10 has far-infrared radiating plates 13, 13a, each having a large number of holes 12, 12a regularly arranged at a predetermined interval, placed horizontally, and the end thereof is attached to the side of the frame 14. 15, 15a
By fixing it to
At the same time, the heating element 16 made of a heating material such as a nichrome wire is bent in a zigzag pattern, and the bent portions 17, 17a are connected to the far infrared radiation plate 13,
The heating element 16 has a fuse 18,
It is connected to a power supply timer 11 and a hot air selection switch 20 via a thermostat 19.

The far-infrared radiating plates 13, 13a are strip-shaped insulating plates made of mica or the like in which a large number of perforated holes 12, 12a... are bored as described above, and the main ingredients are SiO ₂ , TiO ₂ , AL ₂ O ₃ and silane is used.・It is made by curing a ceramic coating agent consisting of titanate polymer and inorganic pigment by drying at room temperature or heating at low temperature to form a film.
As a result, it has excellent electrical insulation, chemical resistance, and heat resistance (heat resistance temperature of 500℃), and the film made of ceramic coating agent has an extremely high far-infrared effect because the far-infrared wavelength is 4 to 20 μm and the emissivity is over 0.95. is obtained.

Power supply timer 11 includes fan 9 and heater 10
It is connected to a temperature changeover switch 20 connected to the
In such a state, the hot air selector switch 20 is energized, and when the desired time has passed, the fan 9 is automatically activated and the hot air selector switch 20 is energized. will be automatically canceled.

The hot air changeover switch 20 is configured to switch the power of the heater 10 in two stages or to stop the heater 10, and after the power timer 11 is set,
By operating the warm air selector switch 20, the heater 1
0 temperature is switched between high and low, or only the fan 9 is operated.

In addition, 21 is a power lamp, and a power timer 1
Lights up when set to 1.

The leg seat 4 is pivotably attached to the bottom surface of the lower cover body 5 of the main body 1, so that the main body 1 can be adjusted up and down in three steps at a predetermined angle.

In other embodiments, the far-infrared radiation screen 22 is installed in front of the heater 10 installed in the case 8 and the air outlets 6, 6a of the front cover body 7...
It is interposed between the two.

The far-infrared radiation screen 22 is formed by forming a metal such as aluminum into a honeycomb shape, and forming a ceramic coating agent into a film using the same process as the far-infrared radiation plates 13 and 13a described above.

In addition, in this embodiment, the far infrared radiation plate 13,
The ceramic coating agent formed into a film such as 13a and far-infrared radiation screen 22 was shown to be one made of a titanate polymer and an inorganic pigment that was cured by drying at room temperature or by heating at a low temperature, but it is limited to such a method. Alternatively, the far-infrared radiation plates 13, 13a and the far-infrared radiation screen 22 may be made of SiO ₂ , TiO ₂ , AL ₂ O ₃ as the main components, and silane may be used. - It may be composed of a ceramic made of a titanate polymer and an inorganic pigment, or a ceramic made of other components.

Next, to explain the function of the far infrared heater according to the present invention, by setting the power supply timer 11 to a desired time, the hot air selection switch 20 connected to the fan 9 and the heater 10 is energized, and at that point, Fan 9 is activated.

Next, by setting the warm air selector switch 20, the heating element 16 in the heater 10 generates heat.

Due to the heat generated by the heating element 16, far infrared rays are radiated from the far infrared radiation plates 13 and 13a.

The far-infrared rays emitted from the far-infrared radiating plates 13, 13a are emitted from the air outlets 6, 6a, etc. In this state, the fan 9 is operating, so the heat generated within the main body 1 is forcibly removed. It blows out as warm air.

In another embodiment, far infrared rays are emitted from the far infrared radiation plates 13 and 13a due to the heat generated by the heating element 16, and the far infrared radiation screen 22 is heated by the radiant heat of the far infrared rays and the heat generated by the heating element 16. At least it emits far infrared rays.

At this time, since the surface area of the honeycomb-shaped far-infrared radiation screen 22 is larger than that of a simple plate-like or harmonica-shaped one, the far-infrared rays of the far-infrared rays of the far-infrared rays emitting plates 13, 13a are increased. This amplifies the radiant heat obtained in conjunction with the radiation of

The far-infrared rays emitted from the far-infrared radiation plates 13, 13a and the far-infrared radiation screen 22 are emitted from the air outlets 6, 6a, etc. In this state, the fan 9 is operating, so the inside of the main body 1 is The heat generated is forced out as warm air.

[Effect of idea]

In short, the present invention provides a large number of perforated holes 12, 12a.
A ceramic coating agent consisting of SiO ₂ , TiO ₂ , AL ₂ O ₃ as main components, silane titanate polymer and inorganic pigment is cured by drying at room temperature or heating at low temperature to form a film on an insulating plate having... The far infrared radiation plates 13, 13a are fixed to the frame 14, and the far infrared radiation plates 13, 13a are fixed to the frame 14.
A heating element 16 is passed through the holes 12, 12a, . Air outlet 6,6
Since it was arranged to correspond to a..., the film made of ceramic coating agent has a far infrared wavelength of 4.
Since the emissivity is 0.95 or more at ~20μm, an extremely high far-infrared effect can be obtained from the far-infrared radiation plates 13 and 13a, and at the same time, the fan 9 has air outlets 6 and 6.
The warm air blown out from a... can warm the user from the core through the radiation effect of far infrared rays, and the convection effect of the warm air can warm the room together with the user.

In this way, far infrared rays can be efficiently radiated from the main body 1, so the desired heating temperature can be maintained, and as a result, the burden on electricity bills can be reduced.

In addition, since fuel such as petroleum is not used, there is no fear of foul odors or poisoning due to carbon monoxide, and there is no danger of the fuel igniting and causing a fire, allowing safe and clean heating.

Also, the metal material is formed into a honeycomb shape,
The far-infrared radiation screen 22 is made by curing a ceramic coating agent mainly composed of SiO ₂ , TiO ₂ , AL ₂ O ₃ , silane titanate polymer, and inorganic pigment by drying at room temperature or heating at low temperature to form a film. The heater 10 and the air outlets 6, 6a...
Since the far-infrared radiation screen 22 is interposed between the The radiant heat obtained in combination with the far-infrared radiation of the radiation plates 13 and 13a is amplified, and the practical effects are great, such as being able to provide even more heating and thermal effects and warming the user's body from the core. It is a big thing.

[Brief explanation of the drawing]

The figure shows one embodiment of the present invention.
The figure is a tilted view of the far infrared heater according to the present invention, Figure 2 is a partially cutaway plan view of the same as the above, Figure 3 is a partly cutaway plan view of another embodiment of the same, and Figure 4 is an exploded tilted view of the main part of the same. It is. 6, 6a...Air outlet, 8 cases, 9 fans, 1
0 Heater, 12, 12a...Drilling hole, 13, 1
3a far infrared radiation plate, 14 frames, 16 heating elements, 22 far infrared radiation screen.

Claims (1)

[Scope of claims for utility model registration] (1) SiO ₂ , TiO ₂ ,
A far-infrared radiation plate made by curing a ceramic coating agent mainly composed of AL ₂ O ₃ , silane titanate polymer, and inorganic pigment by drying at room temperature or heating at low temperature to form a film is fixed to the frame, and A heating element is passed through the hole in the infrared radiation plate in a zigzag pattern to form a heater, and the heater is placed in front of a fan provided in the case and corresponds to the air outlet provided in the front part of the case. A far-infrared heater characterized by being arranged in a similar manner. (2) Forming a metal material into a honeycomb shape, SiO ₂ ,
In front of the heater is a far-infrared radiation screen formed by curing a ceramic coating agent mainly composed of TiO ₂ , AL ₂ O ₃ , silane titanate polymer, and inorganic pigment by drying at room temperature or by heating at low temperature. 2. The far-infrared heater according to claim 1, wherein the far-infrared heater is interposed between the air outlet and the air outlet.